1. Adler, J., Hossain, S., Stevenson, M., Clarke, J., Archer, R., & Grantham, B. (2014). Mathematics for teaching and deep subject knowledge: Voices of mathematics enhancement course students in England. Journal of Mathematics Teacher Education, 17(2), 129–148.

2. Baldinger, E. (2013). Connecting abstract algebra to high school algebra. In M. Martinez & A. Castro Superfine (Eds.), Proceedings of the 35th annual meeting of the North American chapter of the International Group for the Psychology of mathematics education (pp. 733–736). Chicago, IL: University of Illinois at Chicago.

3. Barton, B., & Paterson, J. (2009). Teachers learning mathematics: Professional development research. Report of a TLRI project. Wellington: NZ Council for Educational Research Retrieved from: http://tlri.org.nz/sites/default/files/projects/9256-FinalReport.pdf

4. Christy, D., & Sparks, R. (2015). Abstract algebra to secondary school algebra: Building bridges. Journal of Mathematics Education at Teachers College, 6(2), 37–42.

5. Dreher, A., Lindmeier, A., & Heinze, A. (2016). Conceptualizing professional content knowledge of secondary teachers taking into account the gap between academic and school mathematics. In C. Csíkos, A. Rausch, & J. Szitányi (Eds.), Proceedings of the 40th Conference of the International Group for the Psychology of Mathematics Education. PME: Szeged, Hungary.